/* ---------------------------------------------------------------------------- * This file was automatically generated by SWIG (https://www.swig.org). * Version 4.1.1 * * Do not make changes to this file unless you know what you are doing - modify * the SWIG interface file instead. * ----------------------------------------------------------------------------- */ // source: swig\sxtwl.i extern #ifdef __cplusplus "C" #endif void cgo_panic__sxtwl_0d57379df002c83c(const char*); static void _swig_gopanic(const char *p) { cgo_panic__sxtwl_0d57379df002c83c(p); } #define SWIG_VERSION 0x040101 #define SWIGGO #define SWIGMODULE sxtwl /* ----------------------------------------------------------------------------- * This section contains generic SWIG labels for method/variable * declarations/attributes, and other compiler dependent labels. * ----------------------------------------------------------------------------- */ /* template workaround for compilers that cannot correctly implement the C++ standard */ #ifndef SWIGTEMPLATEDISAMBIGUATOR # if defined(__SUNPRO_CC) && (__SUNPRO_CC <= 0x560) # define SWIGTEMPLATEDISAMBIGUATOR template # elif defined(__HP_aCC) /* Needed even with `aCC -AA' when `aCC -V' reports HP ANSI C++ B3910B A.03.55 */ /* If we find a maximum version that requires this, the test would be __HP_aCC <= 35500 for A.03.55 */ # define SWIGTEMPLATEDISAMBIGUATOR template # else # define SWIGTEMPLATEDISAMBIGUATOR # endif #endif /* inline attribute */ #ifndef SWIGINLINE # if defined(__cplusplus) || (defined(__GNUC__) && !defined(__STRICT_ANSI__)) # define SWIGINLINE inline # else # define SWIGINLINE # endif #endif /* attribute recognised by some compilers to avoid 'unused' warnings */ #ifndef SWIGUNUSED # if defined(__GNUC__) # if !(defined(__cplusplus)) || (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4)) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif # elif defined(__ICC) # define SWIGUNUSED __attribute__ ((__unused__)) # else # define SWIGUNUSED # endif #endif #ifndef SWIG_MSC_UNSUPPRESS_4505 # if defined(_MSC_VER) # pragma warning(disable : 4505) /* unreferenced local function has been removed */ # endif #endif #ifndef SWIGUNUSEDPARM # ifdef __cplusplus # define SWIGUNUSEDPARM(p) # else # define SWIGUNUSEDPARM(p) p SWIGUNUSED # endif #endif /* internal SWIG method */ #ifndef SWIGINTERN # define SWIGINTERN static SWIGUNUSED #endif /* internal inline SWIG method */ #ifndef SWIGINTERNINLINE # define SWIGINTERNINLINE SWIGINTERN SWIGINLINE #endif /* exporting methods */ #if defined(__GNUC__) # if (__GNUC__ >= 4) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 4) # ifndef GCC_HASCLASSVISIBILITY # define GCC_HASCLASSVISIBILITY # endif # endif #endif #ifndef SWIGEXPORT # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # if defined(STATIC_LINKED) # define SWIGEXPORT # else # define SWIGEXPORT __declspec(dllexport) # endif # else # if defined(__GNUC__) && defined(GCC_HASCLASSVISIBILITY) # define SWIGEXPORT __attribute__ ((visibility("default"))) # else # define SWIGEXPORT # endif # endif #endif /* calling conventions for Windows */ #ifndef SWIGSTDCALL # if defined(_WIN32) || defined(__WIN32__) || defined(__CYGWIN__) # define SWIGSTDCALL __stdcall # else # define SWIGSTDCALL # endif #endif /* Deal with Microsoft's attempt at deprecating C standard runtime functions */ #if !defined(SWIG_NO_CRT_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_CRT_SECURE_NO_DEPRECATE) # define _CRT_SECURE_NO_DEPRECATE #endif /* Deal with Microsoft's attempt at deprecating methods in the standard C++ library */ #if !defined(SWIG_NO_SCL_SECURE_NO_DEPRECATE) && defined(_MSC_VER) && !defined(_SCL_SECURE_NO_DEPRECATE) # define _SCL_SECURE_NO_DEPRECATE #endif /* Deal with Apple's deprecated 'AssertMacros.h' from Carbon-framework */ #if defined(__APPLE__) && !defined(__ASSERT_MACROS_DEFINE_VERSIONS_WITHOUT_UNDERSCORES) # define __ASSERT_MACROS_DEFINE_VERSIONS_WITHOUT_UNDERSCORES 0 #endif /* Intel's compiler complains if a variable which was never initialised is * cast to void, which is a common idiom which we use to indicate that we * are aware a variable isn't used. So we just silence that warning. * See: https://github.com/swig/swig/issues/192 for more discussion. */ #ifdef __INTEL_COMPILER # pragma warning disable 592 #endif #include #include #include #include #include typedef int intgo; typedef unsigned int uintgo; # if !defined(__clang__) && (defined(__i386__) || defined(__x86_64__)) # define SWIGSTRUCTPACKED __attribute__((__packed__, __gcc_struct__)) # else # define SWIGSTRUCTPACKED __attribute__((__packed__)) # endif typedef struct { char *p; intgo n; } _gostring_; typedef struct { void* array; intgo len; intgo cap; } _goslice_; #ifdef __cplusplus #include /* SwigValueWrapper is described in swig.swg */ template class SwigValueWrapper { struct SwigSmartPointer { T *ptr; SwigSmartPointer(T *p) : ptr(p) { } ~SwigSmartPointer() { delete ptr; } SwigSmartPointer& operator=(SwigSmartPointer& rhs) { T* oldptr = ptr; ptr = 0; delete oldptr; ptr = rhs.ptr; rhs.ptr = 0; return *this; } void reset(T *p) { T* oldptr = ptr; ptr = 0; delete oldptr; ptr = p; } } pointer; SwigValueWrapper& operator=(const SwigValueWrapper& rhs); SwigValueWrapper(const SwigValueWrapper& rhs); public: SwigValueWrapper() : pointer(0) { } SwigValueWrapper& operator=(const T& t) { SwigSmartPointer tmp(new T(t)); pointer = tmp; return *this; } #if __cplusplus >=201103L SwigValueWrapper& operator=(T&& t) { SwigSmartPointer tmp(new T(std::move(t))); pointer = tmp; return *this; } operator T&&() const { return std::move(*pointer.ptr); } #else operator T&() const { return *pointer.ptr; } #endif T *operator&() const { return pointer.ptr; } static void reset(SwigValueWrapper& t, T *p) { t.pointer.reset(p); } }; /* * SwigValueInit() is a generic initialisation solution as the following approach: * * T c_result = T(); * * doesn't compile for all types for example: * * unsigned int c_result = unsigned int(); */ template T SwigValueInit() { return T(); } #if __cplusplus >=201103L # define SWIG_STD_MOVE(OBJ) std::move(OBJ) #else # define SWIG_STD_MOVE(OBJ) OBJ #endif #endif static void Swig_free(void* p) { free(p); } static void* Swig_malloc(int c) { return malloc(c); } #include "const.h" #include "sxtwl.h" #include // Use the C99 official header #include #include #include SWIGINTERN std::vector< double >::const_reference std_vector_Sl_double_Sg__get(std::vector< double > *self,int i){ int size = int(self->size()); if (i>=0 && i *self,int i,std::vector< double >::value_type const &val){ int size = int(self->size()); if (i>=0 && i::const_reference std_vector_Sl_sxtwl_JieQiInfo_Sg__get(std::vector< sxtwl::JieQiInfo > *self,int i){ int size = int(self->size()); if (i>=0 && i *self,int i,std::vector< sxtwl::JieQiInfo >::value_type const &val){ int size = int(self->size()); if (i>=0 && i *_wrap_new_JDList__SWIG_0_sxtwl_0d57379df002c83c() { std::vector< double > *result = 0 ; std::vector< double > *_swig_go_result; result = (std::vector< double > *)new std::vector< double >(); *(std::vector< double > **)&_swig_go_result = (std::vector< double > *)result; return _swig_go_result; } std::vector< double > *_wrap_new_JDList__SWIG_1_sxtwl_0d57379df002c83c(long long _swig_go_0) { std::vector< double >::size_type arg1 ; std::vector< double > *result = 0 ; std::vector< double > *_swig_go_result; arg1 = (size_t)_swig_go_0; result = (std::vector< double > *)new std::vector< double >(arg1); *(std::vector< double > **)&_swig_go_result = (std::vector< double > *)result; return _swig_go_result; } std::vector< double > *_wrap_new_JDList__SWIG_2_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = 0 ; std::vector< double > *result = 0 ; std::vector< double > *_swig_go_result; arg1 = *(std::vector< double > **)&_swig_go_0; result = (std::vector< double > *)new std::vector< double >((std::vector< double > const &)*arg1); *(std::vector< double > **)&_swig_go_result = (std::vector< double > *)result; return _swig_go_result; } long long _wrap_JDList_size_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; std::vector< double >::size_type result; long long _swig_go_result; arg1 = *(std::vector< double > **)&_swig_go_0; result = ((std::vector< double > const *)arg1)->size(); _swig_go_result = result; return _swig_go_result; } long long _wrap_JDList_capacity_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; std::vector< double >::size_type result; long long _swig_go_result; arg1 = *(std::vector< double > **)&_swig_go_0; result = ((std::vector< double > const *)arg1)->capacity(); _swig_go_result = result; return _swig_go_result; } void _wrap_JDList_reserve_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0, long long _swig_go_1) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; std::vector< double >::size_type arg2 ; arg1 = *(std::vector< double > **)&_swig_go_0; arg2 = (size_t)_swig_go_1; (arg1)->reserve(arg2); } bool _wrap_JDList_isEmpty_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; bool result; bool _swig_go_result; arg1 = *(std::vector< double > **)&_swig_go_0; result = (bool)((std::vector< double > const *)arg1)->empty(); _swig_go_result = result; return _swig_go_result; } void _wrap_JDList_clear_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; arg1 = *(std::vector< double > **)&_swig_go_0; (arg1)->clear(); } void _wrap_JDList_add_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0, double _swig_go_1) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; std::vector< double >::value_type *arg2 = 0 ; arg1 = *(std::vector< double > **)&_swig_go_0; arg2 = (std::vector< double >::value_type *)&_swig_go_1; (arg1)->push_back((std::vector< double >::value_type const &)*arg2); } double _wrap_JDList_get_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0, intgo _swig_go_1) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; int arg2 ; std::vector< double >::value_type *result = 0 ; double _swig_go_result; arg1 = *(std::vector< double > **)&_swig_go_0; arg2 = (int)_swig_go_1; try { result = (std::vector< double >::value_type *) &std_vector_Sl_double_Sg__get(arg1,arg2); } catch(std::out_of_range &_e) { (void)_e; _swig_gopanic("C++ std::out_of_range exception thrown"); } _swig_go_result = (double)*result; return _swig_go_result; } void _wrap_JDList_set_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0, intgo _swig_go_1, double _swig_go_2) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; int arg2 ; std::vector< double >::value_type *arg3 = 0 ; arg1 = *(std::vector< double > **)&_swig_go_0; arg2 = (int)_swig_go_1; arg3 = (std::vector< double >::value_type *)&_swig_go_2; try { std_vector_Sl_double_Sg__set(arg1,arg2,(double const &)*arg3); } catch(std::out_of_range &_e) { (void)_e; _swig_gopanic("C++ std::out_of_range exception thrown"); } } void _wrap_delete_JDList_sxtwl_0d57379df002c83c(std::vector< double > *_swig_go_0) { std::vector< double > *arg1 = (std::vector< double > *) 0 ; arg1 = *(std::vector< double > **)&_swig_go_0; delete arg1; } std::vector< sxtwl::JieQiInfo > *_wrap_new_JQList__SWIG_0_sxtwl_0d57379df002c83c() { std::vector< sxtwl::JieQiInfo > *result = 0 ; std::vector< sxtwl::JieQiInfo > *_swig_go_result; result = (std::vector< sxtwl::JieQiInfo > *)new std::vector< sxtwl::JieQiInfo >(); *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_result = (std::vector< sxtwl::JieQiInfo > *)result; return _swig_go_result; } std::vector< sxtwl::JieQiInfo > *_wrap_new_JQList__SWIG_1_sxtwl_0d57379df002c83c(long long _swig_go_0) { std::vector< sxtwl::JieQiInfo >::size_type arg1 ; std::vector< sxtwl::JieQiInfo > *result = 0 ; std::vector< sxtwl::JieQiInfo > *_swig_go_result; arg1 = (size_t)_swig_go_0; result = (std::vector< sxtwl::JieQiInfo > *)new std::vector< sxtwl::JieQiInfo >(arg1); *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_result = (std::vector< sxtwl::JieQiInfo > *)result; return _swig_go_result; } std::vector< sxtwl::JieQiInfo > *_wrap_new_JQList__SWIG_2_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = 0 ; std::vector< sxtwl::JieQiInfo > *result = 0 ; std::vector< sxtwl::JieQiInfo > *_swig_go_result; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; result = (std::vector< sxtwl::JieQiInfo > *)new std::vector< sxtwl::JieQiInfo >((std::vector< sxtwl::JieQiInfo > const &)*arg1); *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_result = (std::vector< sxtwl::JieQiInfo > *)result; return _swig_go_result; } long long _wrap_JQList_size_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; std::vector< sxtwl::JieQiInfo >::size_type result; long long _swig_go_result; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; result = ((std::vector< sxtwl::JieQiInfo > const *)arg1)->size(); _swig_go_result = result; return _swig_go_result; } long long _wrap_JQList_capacity_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; std::vector< sxtwl::JieQiInfo >::size_type result; long long _swig_go_result; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; result = ((std::vector< sxtwl::JieQiInfo > const *)arg1)->capacity(); _swig_go_result = result; return _swig_go_result; } void _wrap_JQList_reserve_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0, long long _swig_go_1) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; std::vector< sxtwl::JieQiInfo >::size_type arg2 ; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; arg2 = (size_t)_swig_go_1; (arg1)->reserve(arg2); } bool _wrap_JQList_isEmpty_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; bool result; bool _swig_go_result; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; result = (bool)((std::vector< sxtwl::JieQiInfo > const *)arg1)->empty(); _swig_go_result = result; return _swig_go_result; } void _wrap_JQList_clear_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; (arg1)->clear(); } void _wrap_JQList_add_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0, sxtwl::JieQiInfo *_swig_go_1) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; std::vector< sxtwl::JieQiInfo >::value_type *arg2 = 0 ; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; arg2 = *(std::vector< sxtwl::JieQiInfo >::value_type **)&_swig_go_1; (arg1)->push_back((std::vector< sxtwl::JieQiInfo >::value_type const &)*arg2); } sxtwl::JieQiInfo *_wrap_JQList_get_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0, intgo _swig_go_1) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; int arg2 ; std::vector< sxtwl::JieQiInfo >::value_type *result = 0 ; sxtwl::JieQiInfo *_swig_go_result; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; arg2 = (int)_swig_go_1; try { result = (std::vector< sxtwl::JieQiInfo >::value_type *) &std_vector_Sl_sxtwl_JieQiInfo_Sg__get(arg1,arg2); } catch(std::out_of_range &_e) { (void)_e; _swig_gopanic("C++ std::out_of_range exception thrown"); } *(std::vector< sxtwl::JieQiInfo >::value_type **)&_swig_go_result = result; return _swig_go_result; } void _wrap_JQList_set_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0, intgo _swig_go_1, sxtwl::JieQiInfo *_swig_go_2) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; int arg2 ; std::vector< sxtwl::JieQiInfo >::value_type *arg3 = 0 ; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; arg2 = (int)_swig_go_1; arg3 = *(std::vector< sxtwl::JieQiInfo >::value_type **)&_swig_go_2; try { std_vector_Sl_sxtwl_JieQiInfo_Sg__set(arg1,arg2,(sxtwl::JieQiInfo const &)*arg3); } catch(std::out_of_range &_e) { (void)_e; _swig_gopanic("C++ std::out_of_range exception thrown"); } } void _wrap_delete_JQList_sxtwl_0d57379df002c83c(std::vector< sxtwl::JieQiInfo > *_swig_go_0) { std::vector< sxtwl::JieQiInfo > *arg1 = (std::vector< sxtwl::JieQiInfo > *) 0 ; arg1 = *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_0; delete arg1; } Time *_wrap_new_Time__SWIG_0_sxtwl_0d57379df002c83c() { Time *result = 0 ; Time *_swig_go_result; result = (Time *)new Time(); *(Time **)&_swig_go_result = (Time *)result; return _swig_go_result; } Time *_wrap_new_Time__SWIG_1_sxtwl_0d57379df002c83c(intgo _swig_go_0, intgo _swig_go_1, intgo _swig_go_2, double _swig_go_3, double _swig_go_4, double _swig_go_5) { int arg1 ; int arg2 ; int arg3 ; double arg4 ; double arg5 ; double arg6 ; Time *result = 0 ; Time *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (int)_swig_go_1; arg3 = (int)_swig_go_2; arg4 = (double)_swig_go_3; arg5 = (double)_swig_go_4; arg6 = (double)_swig_go_5; result = (Time *)new Time(arg1,arg2,arg3,arg4,arg5,arg6); *(Time **)&_swig_go_result = (Time *)result; return _swig_go_result; } void _wrap_Time_Y_set_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; if (arg1) (arg1)->Y = arg2; } intgo _wrap_Time_Y_get_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int) ((arg1)->Y); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_M_set_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; if (arg1) (arg1)->M = arg2; } intgo _wrap_Time_M_get_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int) ((arg1)->M); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_D_set_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; if (arg1) (arg1)->D = arg2; } intgo _wrap_Time_D_get_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int) ((arg1)->D); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_h_set_sxtwl_0d57379df002c83c(Time *_swig_go_0, double _swig_go_1) { Time *arg1 = (Time *) 0 ; double arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (double)_swig_go_1; if (arg1) (arg1)->h = arg2; } double _wrap_Time_h_get_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double) ((arg1)->h); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_s_set_sxtwl_0d57379df002c83c(Time *_swig_go_0, double _swig_go_1) { Time *arg1 = (Time *) 0 ; double arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (double)_swig_go_1; if (arg1) (arg1)->s = arg2; } double _wrap_Time_s_get_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double) ((arg1)->s); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Time_getYear_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int)(arg1)->getYear(); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_setYear_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; (arg1)->setYear(arg2); } void _wrap_Time_setMonth_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; (arg1)->setMonth(arg2); } intgo _wrap_Time_getMonth_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int)(arg1)->getMonth(); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Time_getDay_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; int result; intgo _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (int)(arg1)->getDay(); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_setDay_sxtwl_0d57379df002c83c(Time *_swig_go_0, intgo _swig_go_1) { Time *arg1 = (Time *) 0 ; int arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (int)_swig_go_1; (arg1)->setDay(arg2); } double _wrap_Time_getHour_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double)(arg1)->getHour(); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_setHour_sxtwl_0d57379df002c83c(Time *_swig_go_0, double _swig_go_1) { Time *arg1 = (Time *) 0 ; double arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (double)_swig_go_1; (arg1)->setHour(arg2); } double _wrap_Time_getMin_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double)(arg1)->getMin(); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_setMour_sxtwl_0d57379df002c83c(Time *_swig_go_0, double _swig_go_1) { Time *arg1 = (Time *) 0 ; double arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (double)_swig_go_1; (arg1)->setMour(arg2); } double _wrap_Time_getSec_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double)(arg1)->getSec(); _swig_go_result = result; return _swig_go_result; } void _wrap_Time_setSec_sxtwl_0d57379df002c83c(Time *_swig_go_0, double _swig_go_1) { Time *arg1 = (Time *) 0 ; double arg2 ; arg1 = *(Time **)&_swig_go_0; arg2 = (double)_swig_go_1; (arg1)->setSec(arg2); } void _wrap_delete_Time_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = (Time *) 0 ; arg1 = *(Time **)&_swig_go_0; delete arg1; } GZ *_wrap_new_GZ__SWIG_0_sxtwl_0d57379df002c83c() { GZ *result = 0 ; GZ *_swig_go_result; result = (GZ *)new GZ(); *(GZ **)&_swig_go_result = (GZ *)result; return _swig_go_result; } GZ *_wrap_new_GZ__SWIG_1_sxtwl_0d57379df002c83c(char _swig_go_0, char _swig_go_1) { uint8_t arg1 ; uint8_t arg2 ; GZ *result = 0 ; GZ *_swig_go_result; arg1 = (uint8_t)_swig_go_0; arg2 = (uint8_t)_swig_go_1; result = (GZ *)new GZ(arg1,arg2); *(GZ **)&_swig_go_result = (GZ *)result; return _swig_go_result; } void _wrap_GZ_tg_set_sxtwl_0d57379df002c83c(GZ *_swig_go_0, char _swig_go_1) { GZ *arg1 = (GZ *) 0 ; uint8_t arg2 ; arg1 = *(GZ **)&_swig_go_0; arg2 = (uint8_t)_swig_go_1; if (arg1) (arg1)->tg = arg2; } char _wrap_GZ_tg_get_sxtwl_0d57379df002c83c(GZ *_swig_go_0) { GZ *arg1 = (GZ *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(GZ **)&_swig_go_0; result = (uint8_t) ((arg1)->tg); _swig_go_result = result; return _swig_go_result; } void _wrap_GZ_dz_set_sxtwl_0d57379df002c83c(GZ *_swig_go_0, char _swig_go_1) { GZ *arg1 = (GZ *) 0 ; uint8_t arg2 ; arg1 = *(GZ **)&_swig_go_0; arg2 = (uint8_t)_swig_go_1; if (arg1) (arg1)->dz = arg2; } char _wrap_GZ_dz_get_sxtwl_0d57379df002c83c(GZ *_swig_go_0) { GZ *arg1 = (GZ *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(GZ **)&_swig_go_0; result = (uint8_t) ((arg1)->dz); _swig_go_result = result; return _swig_go_result; } void _wrap_delete_GZ_sxtwl_0d57379df002c83c(GZ *_swig_go_0) { GZ *arg1 = (GZ *) 0 ; arg1 = *(GZ **)&_swig_go_0; delete arg1; } Day *_wrap_Day_fromSolar_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2) { int arg1 ; uint8_t arg2 ; int arg3 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; result = (Day *)Day::fromSolar(arg1,arg2,arg3); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_Day_fromLunar__SWIG_0_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2, bool _swig_go_3) { int arg1 ; uint8_t arg2 ; int arg3 ; bool arg4 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; arg4 = (bool)_swig_go_3; result = (Day *)Day::fromLunar(arg1,arg2,arg3,arg4); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_Day_fromLunar__SWIG_1_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2) { int arg1 ; uint8_t arg2 ; int arg3 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; result = (Day *)Day::fromLunar(arg1,arg2,arg3); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_Day_after_sxtwl_0d57379df002c83c(Day *_swig_go_0, intgo _swig_go_1) { Day *arg1 = (Day *) 0 ; int arg2 ; Day *result = 0 ; Day *_swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (int)_swig_go_1; result = (Day *)(arg1)->after(arg2); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_Day_before_sxtwl_0d57379df002c83c(Day *_swig_go_0, intgo _swig_go_1) { Day *arg1 = (Day *) 0 ; int arg2 ; Day *result = 0 ; Day *_swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (int)_swig_go_1; result = (Day *)(arg1)->before(arg2); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } intgo _wrap_Day_getLunarDay_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; int result; intgo _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (int)(arg1)->getLunarDay(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getLunarMonth_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getLunarMonth(); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Day_getLunarYear__SWIG_0_sxtwl_0d57379df002c83c(Day *_swig_go_0, bool _swig_go_1) { Day *arg1 = (Day *) 0 ; bool arg2 ; int result; intgo _swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (bool)_swig_go_1; result = (int)(arg1)->getLunarYear(arg2); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Day_getLunarYear__SWIG_1_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; int result; intgo _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (int)(arg1)->getLunarYear(); _swig_go_result = result; return _swig_go_result; } GZ *_wrap_Day_getYearGZ__SWIG_0_sxtwl_0d57379df002c83c(Day *_swig_go_0, bool _swig_go_1) { Day *arg1 = (Day *) 0 ; bool arg2 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (bool)_swig_go_1; result = (arg1)->getYearGZ(arg2); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_Day_getYearGZ__SWIG_1_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (arg1)->getYearGZ(); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_Day_getMonthGZ_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (arg1)->getMonthGZ(); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_Day_getDayGZ_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (arg1)->getDayGZ(); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_Day_getHourGZ__SWIG_0_sxtwl_0d57379df002c83c(Day *_swig_go_0, char _swig_go_1, bool _swig_go_2) { Day *arg1 = (Day *) 0 ; uint8_t arg2 ; bool arg3 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (bool)_swig_go_2; result = (arg1)->getHourGZ(arg2,arg3); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_Day_getHourGZ__SWIG_1_sxtwl_0d57379df002c83c(Day *_swig_go_0, char _swig_go_1) { Day *arg1 = (Day *) 0 ; uint8_t arg2 ; GZ result; GZ *_swig_go_result; arg1 = *(Day **)&_swig_go_0; arg2 = (uint8_t)_swig_go_1; result = (arg1)->getHourGZ(arg2); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } bool _wrap_Day_isLunarLeap_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; bool result; bool _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (bool)(arg1)->isLunarLeap(); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Day_getSolarYear_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; int result; intgo _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (int)(arg1)->getSolarYear(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getSolarMonth_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getSolarMonth(); _swig_go_result = result; return _swig_go_result; } intgo _wrap_Day_getSolarDay_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; int result; intgo _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (int)(arg1)->getSolarDay(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getWeek_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getWeek(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getWeekIndex_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getWeekIndex(); _swig_go_result = result; return _swig_go_result; } bool _wrap_Day_hasJieQi_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; bool result; bool _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (bool)(arg1)->hasJieQi(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getJieQi_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getJieQi(); _swig_go_result = result; return _swig_go_result; } double _wrap_Day_getJieQiJD_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; double result; double _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (double)(arg1)->getJieQiJD(); _swig_go_result = result; return _swig_go_result; } char _wrap_Day_getConstellation_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(Day **)&_swig_go_0; result = (uint8_t)(arg1)->getConstellation(); _swig_go_result = result; return _swig_go_result; } void _wrap_delete_Day_sxtwl_0d57379df002c83c(Day *_swig_go_0) { Day *arg1 = (Day *) 0 ; arg1 = *(Day **)&_swig_go_0; delete arg1; } void _wrap_JieQiInfo_jd_set_sxtwl_0d57379df002c83c(sxtwl::JieQiInfo *_swig_go_0, double _swig_go_1) { sxtwl::JieQiInfo *arg1 = (sxtwl::JieQiInfo *) 0 ; double arg2 ; arg1 = *(sxtwl::JieQiInfo **)&_swig_go_0; arg2 = (double)_swig_go_1; if (arg1) (arg1)->jd = arg2; } double _wrap_JieQiInfo_jd_get_sxtwl_0d57379df002c83c(sxtwl::JieQiInfo *_swig_go_0) { sxtwl::JieQiInfo *arg1 = (sxtwl::JieQiInfo *) 0 ; double result; double _swig_go_result; arg1 = *(sxtwl::JieQiInfo **)&_swig_go_0; result = (double) ((arg1)->jd); _swig_go_result = result; return _swig_go_result; } void _wrap_JieQiInfo_jqIndex_set_sxtwl_0d57379df002c83c(sxtwl::JieQiInfo *_swig_go_0, char _swig_go_1) { sxtwl::JieQiInfo *arg1 = (sxtwl::JieQiInfo *) 0 ; uint8_t arg2 ; arg1 = *(sxtwl::JieQiInfo **)&_swig_go_0; arg2 = (uint8_t)_swig_go_1; if (arg1) (arg1)->jqIndex = arg2; } char _wrap_JieQiInfo_jqIndex_get_sxtwl_0d57379df002c83c(sxtwl::JieQiInfo *_swig_go_0) { sxtwl::JieQiInfo *arg1 = (sxtwl::JieQiInfo *) 0 ; uint8_t result; char _swig_go_result; arg1 = *(sxtwl::JieQiInfo **)&_swig_go_0; result = (uint8_t) ((arg1)->jqIndex); _swig_go_result = result; return _swig_go_result; } sxtwl::JieQiInfo *_wrap_new_JieQiInfo_sxtwl_0d57379df002c83c() { sxtwl::JieQiInfo *result = 0 ; sxtwl::JieQiInfo *_swig_go_result; result = (sxtwl::JieQiInfo *)new sxtwl::JieQiInfo(); *(sxtwl::JieQiInfo **)&_swig_go_result = (sxtwl::JieQiInfo *)result; return _swig_go_result; } void _wrap_delete_JieQiInfo_sxtwl_0d57379df002c83c(sxtwl::JieQiInfo *_swig_go_0) { sxtwl::JieQiInfo *arg1 = (sxtwl::JieQiInfo *) 0 ; arg1 = *(sxtwl::JieQiInfo **)&_swig_go_0; delete arg1; } Day *_wrap_fromSolar_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2) { int arg1 ; uint8_t arg2 ; int arg3 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; result = (Day *)sxtwl::fromSolar(arg1,arg2,arg3); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_fromLunar__SWIG_0_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2, bool _swig_go_3) { int arg1 ; uint8_t arg2 ; int arg3 ; bool arg4 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; arg4 = (bool)_swig_go_3; result = (Day *)sxtwl::fromLunar(arg1,arg2,arg3,arg4); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } Day *_wrap_fromLunar__SWIG_1_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, intgo _swig_go_2) { int arg1 ; uint8_t arg2 ; int arg3 ; Day *result = 0 ; Day *_swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (int)_swig_go_2; result = (Day *)sxtwl::fromLunar(arg1,arg2,arg3); *(Day **)&_swig_go_result = (Day *)result; return _swig_go_result; } std::vector< double > *_wrap_siZhu2Year_sxtwl_0d57379df002c83c(GZ *_swig_go_0, GZ *_swig_go_1, GZ *_swig_go_2, GZ *_swig_go_3, intgo _swig_go_4, intgo _swig_go_5) { GZ arg1 ; GZ arg2 ; GZ arg3 ; GZ arg4 ; int arg5 ; int arg6 ; GZ *argp1 ; GZ *argp2 ; GZ *argp3 ; GZ *argp4 ; std::vector< double > result; std::vector< double > *_swig_go_result; argp1 = (GZ *)_swig_go_0; if (argp1 == NULL) { _swig_gopanic("Attempt to dereference null GZ"); } arg1 = (GZ)*argp1; argp2 = (GZ *)_swig_go_1; if (argp2 == NULL) { _swig_gopanic("Attempt to dereference null GZ"); } arg2 = (GZ)*argp2; argp3 = (GZ *)_swig_go_2; if (argp3 == NULL) { _swig_gopanic("Attempt to dereference null GZ"); } arg3 = (GZ)*argp3; argp4 = (GZ *)_swig_go_3; if (argp4 == NULL) { _swig_gopanic("Attempt to dereference null GZ"); } arg4 = (GZ)*argp4; arg5 = (int)_swig_go_4; arg6 = (int)_swig_go_5; result = sxtwl::siZhu2Year(SWIG_STD_MOVE(arg1),SWIG_STD_MOVE(arg2),SWIG_STD_MOVE(arg3),SWIG_STD_MOVE(arg4),arg5,arg6); *(std::vector< double > **)&_swig_go_result = new std::vector< double >(result); return _swig_go_result; } GZ *_wrap_getShiGz__SWIG_0_sxtwl_0d57379df002c83c(char _swig_go_0, char _swig_go_1, bool _swig_go_2) { uint8_t arg1 ; uint8_t arg2 ; bool arg3 ; GZ result; GZ *_swig_go_result; arg1 = (uint8_t)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (bool)_swig_go_2; result = sxtwl::getShiGz(arg1,arg2,arg3); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } GZ *_wrap_getShiGz__SWIG_1_sxtwl_0d57379df002c83c(char _swig_go_0, char _swig_go_1) { uint8_t arg1 ; uint8_t arg2 ; GZ result; GZ *_swig_go_result; arg1 = (uint8_t)_swig_go_0; arg2 = (uint8_t)_swig_go_1; result = sxtwl::getShiGz(arg1,arg2); *(GZ **)&_swig_go_result = new GZ(result); return _swig_go_result; } char _wrap_getRunMonth_sxtwl_0d57379df002c83c(intgo _swig_go_0) { int arg1 ; uint8_t result; char _swig_go_result; arg1 = (int)_swig_go_0; result = (uint8_t)sxtwl::getRunMonth(arg1); _swig_go_result = result; return _swig_go_result; } char _wrap_getLunarMonthNum__SWIG_0_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1, bool _swig_go_2) { int arg1 ; uint8_t arg2 ; bool arg3 ; uint8_t result; char _swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; arg3 = (bool)_swig_go_2; result = (uint8_t)sxtwl::getLunarMonthNum(arg1,arg2,arg3); _swig_go_result = result; return _swig_go_result; } char _wrap_getLunarMonthNum__SWIG_1_sxtwl_0d57379df002c83c(intgo _swig_go_0, char _swig_go_1) { int arg1 ; uint8_t arg2 ; uint8_t result; char _swig_go_result; arg1 = (int)_swig_go_0; arg2 = (uint8_t)_swig_go_1; result = (uint8_t)sxtwl::getLunarMonthNum(arg1,arg2); _swig_go_result = result; return _swig_go_result; } Time *_wrap_JD2DD_sxtwl_0d57379df002c83c(double _swig_go_0) { double arg1 ; Time result; Time *_swig_go_result; arg1 = (double)_swig_go_0; result = sxtwl::JD2DD(arg1); *(Time **)&_swig_go_result = new Time(result); return _swig_go_result; } double _wrap_toJD_sxtwl_0d57379df002c83c(Time *_swig_go_0) { Time *arg1 = 0 ; double result; double _swig_go_result; arg1 = *(Time **)&_swig_go_0; result = (double)sxtwl::toJD(*arg1); _swig_go_result = result; return _swig_go_result; } std::vector< sxtwl::JieQiInfo > *_wrap_getJieQiByYear_sxtwl_0d57379df002c83c(intgo _swig_go_0) { int arg1 ; std::vector< sxtwl::JieQiInfo > result; std::vector< sxtwl::JieQiInfo > *_swig_go_result; arg1 = (int)_swig_go_0; result = sxtwl::getJieQiByYear(arg1); *(std::vector< sxtwl::JieQiInfo > **)&_swig_go_result = new std::vector< sxtwl::JieQiInfo >(result); return _swig_go_result; } #ifdef __cplusplus } #endif